Milling-machine.



s. D. LELANDI MILLING MACHINE. v

'APPLIOATION FILED JULY 2.8, 1902.'

Patented Dec. 27, 1910.

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MILLING MACHINE. APPLICATION FILED JULY 2s. 1902.

Patented Dec.27,1910.

6 SHEETS-SHEET 2.

S. D. LELAND.

MILLING MACHINE.

APPLICATION 'ILIED JULY 28, 1902.

PatentedA Dec.`27, 1910.

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Y' S. D. LBLAND.

MILLING MACHINE.

APPLICATION FILED JULY 2s, 1902.

Patented nee. 27, 1910.

6 BHEETBTBHEET 4.

S. D. LELAND.

MILLING MACHINE` APPLICATION PILPD JULY 2a, 1902.

979,972. Patented Dec. 27, 1910.

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S. D. LBLAND. MILLING'MAQHINE. l APPLIOATION FILED JULY sa, 1902.

Patented Dee. 27,1910.

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nuirEn sfrATEs PATENT oEEioE.

MACHINERY COMPANY, 0F PATERSON,y NEW JERSEY, AND BOSTON, MASSACHU- SETTS, A CORPORATION OF NEW JERSEY.

MILLING-MACHINE.

Specication of Letters Patent,

Patented Dec. 27, 1910.

To all whom 'it may concern:

Be it known that I, SANFORD D. LELAND, a citizen of the United States, residing at lhlinchester, in the county of Middlesex and State of Massachusetts, have invented an Improvement in Milling-Machines, of which the following description, in connection with the accompanying drawings, is a specification, like letters on the drawings representing like parts.

This invention has for its object the production of a novel milling machine adapted to produce awls used in shoe machines, and other articles, presenting at one end a milled portion other than round, the cross section of the milled portion varying according to the article being made and the special configuration required in the article.

In my novel machine the stock of any desired shape in cross section and of indefinite length is restrained from rotation, said stock having only a longitudinal movement which is intermitting and to t-he proper extent to project the stock beyond the end of a chuck holding it, the end of the stock being presented in succession to a plurality of sets of rotating milling tools, the axes of rota` tion of the milling tools of different sets being inclined one with relation to the other that the milling tools of one set may act upon different parts of the stock from the milling tools of another`set. The milling tools and other actuating mechanism are mounted upon a carriage, and the leading gear of each set of vmilling tools comes intermittingly into engagement with an actuator which may run constantly. The por-l tion of the article presenting in cross-section a shape other than circular, may be shaped to present different facets located more or less distant from the longitudinal center of the stock, and to provide one way for off-setting from the longitudinal center of the stock the point of the awl, l have, in the embodiment of the invention selected for illustration shown the opening embracing the stock at the end of the chuck as being out of line with relation to the longitudinal center of the chuck and also each throat which guides the stock being acted upon by a pair of milling tools is similarly out of line with relation to the working center of the corresponding milling tools,

said chuck opening and throat it is possible to change without limit the location of the facets of the portions of the article other than round and the location of the point of the awl leaving it in any desired position. These facets may be yfinished either as plane surfaces or as oval or rounded surfaces by merely changing the shape of the finishing cutters or the cutters last used in the production of the awl or other article.

In the drawings which illustrate one embodiment only of my invention, Figure l represents in side elevation a suiiicient portion of my novel machine to illustrate the location of its operative parts, the cam for actuating the stock, and feeding means for operating the chuck being partially broken off Fig. 2 shows some of the parts represented in Fig. l, on a larger scale, the hood being in section, most of the sleeve through which the stock is fed being omitted; Fig. 2a is a section` in the line ai, Fig. 2, showing the first set of milling tools; Fig. 3 is a top view of the parts shown in Fig. 2 with the hood omitted, the dotted lines showing the milling tool actuator located, it will be supposed, inside the hood and employed to actuate the milling tools one after the other; Fig. i is an enlarged View of the chuck, showing its stock delivery opening offset; Fig. 5 is a sectionv in the line x2, Fig. 3, taken through the second set of milling tools; Fig. 5a is a detail showing the gears flo and fm; Fig. 6 is a section on the irregular line x3, Fig. 3, showing on an enlarged scale the final or finishing set of milling tools, and one form of means for determining the taper to be given to the milled face of the article. Fig. 7 is a sectional detail in the line ont, Fig. 3, chiefly to show the eccentric bearings or bushings for the shafts of the milling tools. Fig. S is a longitudinal section through the sleeve A4 on the dotted line Fig. 3, said figure showing the feeding rod, the chuck, and its operating tool; Fig. 9 shows in perspective the outer slotted end of the sleeve; Fig. l0, a left hand end View of the guide B13 and studs thereon; Fig. 11 shows a face view of the chuck enlarged, and the surrounding nose; Fig. 11a .is an enlarged view of the delivery end of the chuck, showing the eccentricity of the delivery opening somewhat accentuated. Fig. l2 is a section in the line y,

and by varying the extent of offsetting of l Fig 8; Fig. 13 is a section on the line y Fig.

8; Fig. 14 is a section in the line y2 Fig. 8; Figs. 15, 16 and 17, show respectively different steps or stages of the stock in the manufacture of an awl, the views being side elevations and end views; Fig. 1S is a section in the line m5, Fig. 1, looking to the left; Fig. 19 is a detail showing in section part of the casing and the shaft ther-eon carrying the actuator 62,' Fig. 20 is a detail showing driving means for the continually moving actuator; and Fig. 21 shows the hub B5 laid out flat to illustrate the projections thereon for moving the slides to be described.

Referring to the drawings, A repr-esents portions of a. suitable frame work to sustain the working parts, the lower part of said framework (not shown) being suitably shaped to stand upon the floor or other" support. The upper part of the frame sustains a pillow-block A, the latter being secured to the frame by suitable bolts A2. The pillow-block has suitable bearings A3, which receive and hold fiXedly a sleeve A4, threaded at its front end at A5, see Fig. 8, and having a {lang-e a4* to receive a nose A5, shown as presenting at its interior a tapered surface A7, which acts to close the chuck a2 to be described, upon the stock. The rear or left hand end, viewing the drawing Figs. 8 and 9, of the sleeve A4, is provided with one or more longitudinal slots A8, and the end of the sleeve is provided with a screw thread A9.

The sleeve A4 receives a chuck operating tube against which abuts the inner end of the chuck a2 represented 'as detached in Figs. 4 and 11. The outer or head end of the chuck is tapered, as at a5, and the chuck is split longitudinally at a2 to enable the chuck to be closed lirmly and grasp or hold the rod or stock being operated upon as the tube 1s moved to the right, viewing Fig. 8, the tapered part contacting with the inner tapered surface A7 of the nose A5. The tube a has one or more lugs a7 that enter the slots AS of the sleeve A4 and prevent the rotation of the tube when being slid.

Viewing Figs. 4, 8, 11 and 115 it will be noticed that the hole or opening as in the chuck, through which the stock is delivered, is located at one side the longitudinal axis of the chuck, and the opening is four-sided, as the stock in the present instance of my invention, being acted upon to form an awl, is four-sided, but this invention is not limited to the particular shape shown for the delivery opening of the chuck, as that will be varied according` to the cross section of the stock used.

To move the tube a at the proper time to closet-he chuck a2, I have mounted on the sleeve A4 a cone B provided with an annular groove B, in which enters a portion ZJ of a slide B2 having'at its underside a stud B3, which at the proper time in the operation of the machine is struck by a cam or projection B4 on the hub B5, such projection moving the slide B2 in the direction of the arrow Fig. 1, causing the cone to act upon the free ends of two like levers B5, and turn said levers so that their shorter arms b4 in contact with the projections a7 of the tube a. slides the same longitudinally for a sufficient distance to act upon, slide and close the chuck a2 upon the stock as described. A projection bx on the hub B5 meets the opposite side of t-he projection B3 and moves the slide B2 in the opposite direction to thus enable the chuck to release the stock as when the latter is to be fed and its end projected through the opening a5 of the chuck.

The levers BG are pivoted at 33 on a collar 34, which is threaded internally, and this collar fits loosely over the split end of the sleeve A4, and thereafter a hollow bushing 35, see Fig. S, which may have a flange to abut the end of the sleeve A4 is inserted into the open end of said sleeve, and a locking nut, represented as a split ring 36, see Figs. 3 and 12, is screwed upon the threaded part of the sleeve A4, and a suitable clamping screw 38, is inserted through suitable threaded holes of the clamping nut, thus clamping it firmly upon the sleeve, the bushing enabling the splitends of the sleeve to withstand the pressure of the nut.

For feeding the stock intermittently I have provided in this instance of my invention a feeding device, shown partially in section in Fig. 8. The feeding device illus trated consists of a tube B7, having secured or screwed into its inner end, in any suitable manner, a stock engaging device, shown as a piece of steel B10, split at 37 to form of it a clamp to engage the stock frictionally with a force sufficient tocause the stock to be moved with it when not restrained by the chuck. That the feeding device may feed the stock through the chuck at the proper times, I have provided one end of the tube B7 with a collar B5, having an annular groove B9 which is entered by a projection from a slide B12 free to be moved on a guideway B15, said slide having a stud B14 which is acted upon by a cam projection 3, Fig. 21, whenever the stock is to be fed through the chuck, the latter being then relaXed, a cam projection b5, Fig. 21, acting on said stud to slide the tube B7 backwardly over the stock, the latter at such time being held firmly by the chuck. The opening at the inner end of the part B40 of the tube B7 is shaped in cross-section to correspond with the stock.

The hub B5 is connected with the mainshaft C of the machine, sustained in suitable bearings in the framework A, said shaft in the present instance of my invention being provided at one end with a worm toothed gear C, which is engaged by the teeth of a worm C2, on a shaft C3, held in suitable bearings C4 extended from the frame, and said shaft maybe provided, as shown, at one end with a suitable belt pulley C5, driven by a suitable belt C, set in motion from any usual countershaft.

The free end of the stock, having been ieduced or milled to the desired shape in cross section, as will be described, the stock must be cut off outside the chuck, and to do this the shaft C is provided with a plate c, said plate having at each side suitable cam lugs c, c2, see F ig. 18, which in the rotation of said shaft moves levers c3 and ct, pivoted respectively at c5, c, on a xed part A* of the framework. Each of these levers has an adjustable contact point, as c7 and 0S, change of position of which in the lever changes the extent of movement of a carriage c mount ed, see Fig. 1, upon a suitable way 01. The carriage 09 has adjustably connected with it by a bolt D the foot D of a bearing stand D2, containing a suitable shaft D3, having suitable fast and loose pulleys D1 and D, driven by a suitable belt DG under the control of the belt shipper D", normally occupying a stationary position so that the belt will be maintained upon the loose pulley D5, see Fig. 3, whenever the carriage 09 occupies its inoperative position, but when the carriage is moved in the direction of the arrow thereon, Fig. 3, to cause the cutter D8, represented as a rotating saw, fast on a shaft D, to cut off the stock, the fast pulley DA1 will be brought within the belt D, and the shaft D3 will be rotated, to thereby cause the cutter to sever the stock. The employment of a rotating cutter enables me to cut off stock which does not rotate.

The shaft DD is supported in a suitable bearing sustained on the stand D2, said shaft having connected with it a beveled gear D10, which is engaged and rotated by a beveled gear D12, fast on the shaft D3. Then the cain c acts upon the lever c3, the screw or device 0T meets the end of the carriage c and moves it in a direction to cause the cutter to sever the stock, and the stock having been severed, the cutter must be immediately retracted in order that the stock may be fed again through the chuck, and this backward movement of the carriage iseffected by the cam c2 acting on the lever 01'.

As to the turret C7 which carries the different sets of milling tools to be described it is of usual construction and has a central stud Z see Fig. 1 which is made tight in and moves with a carriage CZ', fitted in a guideway (Z2, secured to the frame by suitable screws cl3, see Fig. 1, and this carriage and its turret is moved toward and from the chuck by or through a series of cams 2, 3,

,4, etc., mounted preferably in an adjustable manner upon a hub (Z5, fast upon the shaft C, said cams meeting in succession one and then the other side of the stud CZ, the carriage being moved forward or to the left viewing Fig. 1, when the milling tools to be de-y scribed are acting upon the stock, and being moved backwardly when the milling too-ls are backing off from the stock, the turret being rotated immediately after the milling tools have been backed off the stock, to thus bring the milling tools into operative position in proper succession, said tools being thereafter maintained at rest until again returned into their operative positions.

In practice the .worm and worm shaft C3 described will be driven at one speed, viz a slow speedwhile the milling tools are acting to reduce the stock, and at a faster speed when the milling tools are backing off from the stock and the turret C" is being rotated to bring 4another set of milling tools into operation. I have not hereinshown speed changing means or devices for effecting this difference in speed of rotation of the shaft C3, for the reason that such mechanism is well known and in daily use in connection with machines for automatically threading screws, and in this invention in practice it is intended to employ any of these usual or suitable forms of variable speed contrivances to vary the speed of the shaft C according to the special requirements of the work to increase the amount of work to be done. Inasmuch as said carriage and turret and the means for actuating the same does not herein constitute a portion of my invention, it has not been deemed necessary to specifically illustrate such devices.

The turret CT is herein represented as provided with four operative sets of devices,

said sets being contained in stands E, F,

G, H, the stands E, F, G, being secured to the turret by suitable set screws 61, 71, 81, said devices operating for the completion of an awl in the order herein to be described. The stand E carries two like milling tools e3, suitably secured to two upright shafts e, e, mounted in like eccentric bearings 63X, the milling tools being secured to the lower ends of said shafts, they meeting the end of the stock sustained and guided in a'throat ex, held in an ear in the stand by a set screw 613.

The upper ends of the shafts e and e are provided respectively with pinioiis et and 6"', the pinion e5 having meshing with it an intermediate gear e6, driven also by an intermediate gear es deriving its movement at proper times from a continuously moving actuator shown as a rotating toothed wheel e, said wheel acting in succession as the driver for the different sets of devices or milling tools to be described.

The shape of the hole in the throat plate corresponds with the shape of the stock, and it receives and sustains the stock being reduced by the action of the milling tools e3,

they acting to form the cuts 7, 8, on the stock, see Fig. 15, and in the formation of an awl said cuts remove a little more stock at the point 7 than at 8, to thus give to the leading end of the stock faces diering in length, whereas the body of the stock is as a parallelogram presenting equal sides and angles.

The cutters e3 having been operated to reduce the end of the stock at two points by a forward movement of the carriage, the carriage is quickly retracted in any usual manner, and the turret is rotated far enough to bring into operative position the stand F containing the second set of milling tools. The second set of tools is devised to make two other cuts upon the end of the stock, at an angle to the first two cuts, 7, 8, made by the cutters c3, and in order that this may be done and the cuts be made at a suit-able angle from stock which does not rotate, 1 have located the shafts y and 7, see Figs. 2, 5, and 7, in a substantially horizontal plane, whereas the shafts e and e are located in a substantially vertical plane.

The shafts f, f are provided respectively with milling cutters f2, f3, secured to said shafts in usual manner, the stock entering between said cutters being guided by a throat f4, like the throat eX, said throat being secured in position by a suitable set screw 616, see Fig. 3. The shafts f, f are mounted in eccentric bearings f5, f6, which bearings may be turned slightly to adjust the edges of the milling cutters toward or from each other, thereby to space them properly from each other and properly with relation to the center line of the throat f4 to make the required cuts on the stock. The bearings f5, f6, are held in their adjusted position by setting up the set screw 610x, which results in clamping the bearings within the stand F.

The eccentric bearings for the shafts e, e are the same as those used for the shafts f and 7" and each set of bearings are provided respectively with a plurality of notches 614, 615, which are exposed outside the stands in order that they may be engaged by a suitable wrench to rotate the bearings more or less according to the separation required for the acting teeth of the milling tools to thereby enable said tools to remove more or less of the stock in making the awl, and by the employment of eccentric bearings, the cutting blades of the said tools may be adjusted with relation to the opening in the throat e* or f4 to enable each pair of milling tools to remove the desired amount of material from the end of the stock.

The shafts f and f that they may be rotated are provided at their rear ends with worm toothed gears f7, fs, suitably secured on said shafts by suitable like nuts fg. The worm toothed gears f7 and f8 are engaged respectively by other worm toothed gears flo and f, see dotted lines Figs. 2 and 5, suitably connected with a shaft 7613, Fig. 3, provided at its upper end with a gear f, engaged and rotated by a toothed gear f15, which is engaged and rotated at suit-able times by the toothed wheel or actuator e9, said shaft and gears f1", f12, being counterparts of the shaft g and gears gm, 913, to be described.

Suitable set screws f1 and 610x are used to confine the eccentric bearings in their adjusted positions and prevent their rotation.

The milling tools f2 and f3 make a second cut inthe product-ion of an awl, and they remove portions of the stock at 9, 10, see

Fig. 16, the stock removed at 10 leaving a deeper space than the stock removed at 9. At the end of the second cut the leading end of the stock has been reduced into the condition represented in the end view of Fig. 16. The milling tools f2 and f3 having performed their work in a forward movement of the carriage and turret, the carriage is drawn back lquickly and the turret rotated, bringing the stand Gr into operative position, it having milling tools g, g, carried by shafts g2, g3, engaging the end of the stock held in the throat g4. The shafts g2 and g3 having each a worm toothed gear, as g5, g, are mounted in arms Q7, g8,

pivoted at 20, 21, in the stand G. The gears g5 and g are engaged respectively by right and left hand worms Q12* and Q13 on a shaft 911. The upper end of the shaft g14 has an attached pinion 915, which is engaged by a gear g1, which is rotated at the proper times by the actuator e9. The arms g, g8, are provided respectively with right and left hand threads, which are engaged by right and left hand threads g1?, Q18, on a shaft g19, provided at its upper end with a toothed gear Q11. The shaft lQ19'is surrounded by a spring Q22 which acts normally to turn the shaft Q19 in a direction to cause the arms 97 and g8 to move th-e milling tools g and g toward each other. The milling tools g and g which act upon the end of the stock eX- tended through the throat g1, are shaped to make the final or finishing cut on the awl or other thing being made to give to the leading end of the stock the irregular shape in cross section which is required, say for the production of anawl, said cutters changing the end of the stock from the shape shown in Fig. 16 to the shape shown in Fig. 17, leaving the awl finished with the exception of pointing and f smoothing at its edges, which is subsequently done by grinding on a stone.

An inspection of Fig. 17 shows the point of the awl offset from the longitudinal center of the stock, and this offsetting is effected in the illustrated embodiment of the invention by placing the delivery opening of the chuck out of center with relation to a line drawn through the center of the feeding device and by placing the center of the operative throat carried by the turret and in which the end of the stock rests while being milled, similarly offset from the work` ing center of its respective pair of milling tools.

It will be seen that in each of the operations described, the cutting means in acting upon opposite sides of the stock to remove different portions thereof defines a space between the inward limits of movement of said cutting means, and that a line drawn through the center of this space would be oifset from the longitudinal center of the stock.

That the milling tools g and g may act to taper the stock, I have provided means for separating automatically said tools as they are being fed onto the end of the stock. For this purpose I have herein shown a sector lever g2? pivoted on a stud Q28 substantially in alineinent with the longitudinal axis of the shaft 914, the teeth of said sector engaging the pinion ggl, and that .said lever may be moved to rotate the shaft g19 positively in a direction to separate the tools g and g as they are fed on the end of the stock, 1 have provided an adjustable stop 7i which is held in clamped position by a suitable clamp 7V, having a nut h2, the lever meeting the stop and being turned thereby to separate the tools g and g more or less according to the taper it is desired to give to the blade of the awl. The milling cutters g and g having reduced the stock into substantially the form of an awl, the carriage with its turret is backed off andthe turret is rotated, bringing into position the stand H, provided with a blade holder composed of two prongs h3, separated at a distance apart and having their faces so located as to contact with the two sides 15, 16, of the awl blade, so that the blade will be firmly held and will not be strained or bent while the cutter D8 heretofore described, is moved to contact with the stock substantially close to the end of the chuck to cut off an awl or other thing made by the parts described.

The toothed actuator or gear e9, that it may be operated to rotate the gearing for actuating the different milling cutters ,described, is mounted upon a shaft 7a4, held in a suitable bearing h5, in a hood H', which in practice is connected with the carriage CZ by means of suitable set screws H2, so that said hood partakes of all the movements of the carriage, and inasmuch as the pinions es, 715, and g1, present their teeth in a circle described from the center 30, it follows that the teeth of the gear e9 may engage said gears es, f, and 916, one after another when ever in the rotation of the turret said gears aire brought into their respective operative positions.

The upper end of the shaft h4 is connected by a suitable ball or universal joint contrivance IL, with a rod It?, which has a sliding fit in a bar 71,8, in practice connected at its upper end by or through a like ball or universal joint, LGX, see F ig. 20, with a short shaft b9, having a beveled gear IL10, actuated from a suitable beveled gear k12 on a line or other shaft his, held in a stand hlt, substantially at the ceiling, so that said sleeve or rod LS, with which the shank 77,7 has a sliding but not a rotating fit, may be rotated whatever the position of'the carriage, so that said substantially continuously rotating gear e", constituting an actuator, is always in operation, and will readily start and rotate the milling tools whenever the latter come into their operative positions.

The machine will have operatively connected with it usual oil feeding means, to keep the stock being acted upon well oiled.

Having described my invention, what I claim as new and desire to secure by Letters Patent is 1. In a machine of the class described, mechanism to hold the stock to be dressed, cutting means arranged to operate upon opposite sides of said stock, and means for producing a relative movement of the cutting means and stock, the center of the space defined by the inward limits of movement of the cutting means being offset from the longitudinal center of the stock.

2. In a machine of the class described, mechanism to hold and feed stock to be dressed, cutting tools arranged to operate simultaneously upon the opposite sides of the end portion of the stock, and means to cause said tools to move relatively to the stock, the center of the space defined by the inward limits of movement of the tools being offset from the longitudinal center of the stock.

3. In a machine of the class described, mechanism to feed stock to be dressed, a plurality of rotatable tools arranged to act simultaneously upon opposite sides of the stock, means for relatively reciprocating said tools and said stock, and means for so controlling the relative positions of the tools and stock that the center of the space defined by the inward limits of movement of the tools will be offset from the longitudinal center of the stock.

4. In a milling machine, means to embrace and feed a rod, means to clamp.and hold said rod stationary that it may be milled, pairs of rotatable milling tools, the tools of each pair being constructed to .act simultaneously on opposite sides of the rod, a movable support for the pairs of milling tools, whereby the various pairs of tools may be brought successively into operative position, means for causing relative movement of the support and rod along the rod for the pair of tools to act on it, and automatic means to cause the milling tools of one pair to be separated while acting on the rod to produce a longitudinal taper.

5. In a milling machine, means to clamp and hold a rod stationary while being milled, means to feed the rod longitudinally, a pair of milling tools adapted to act simultaneously on opposite sides of the rod, auto matic means to separate the milling tools when in operation, and means to regulate the point at which the separation begins.

6. In a milling machine, means to hold a rod, a pair of rotatable milling tools arranged to act simultaneously on opposite sides of the rod, means for relatively reciprocating the milling tools and the rod, and means to present the rod to the milling tools out of line with their working center, whereby the milled portion of the rod is offset from the longitudinal center of the rod.

7. In a milling machine, a non-rotating rod clamping chuck, a pair of milling tools, a movable support therefor, means for reciprocating the support to cause the tools to act upon opposite sides of the rod to be milled, means cooperating with the clamping chuck during the milling operation to hold said rod out of line with relation to the working center of said pair of tools, whereby facets offset from the original center of the end of the rod will be formed by said milling tools.

8. In a milling machine for making awls, a chuck to feed and hold stock, a turret carrying a plurality of pairs of milling tools arranged to act in succession to form facets on the stock, a throat on the turret for each pair of milling tools in which the stock rests while being milled, said throat and the delivery opening of said chuck being out of line with the working center of the pair of milling tools during the milling operation, whereby the facets formed on the awls will be offset from the longitudinal center of the stock.

9. In a milling machine, a chuck to feed and hold stock, a rotatable cutting-off tool, a carriage therefor, means to move the same transverselyof the stock, a shaft supported on said carriage and operatively connected with said tool, fast and loose pulleys on said shaft, a driving belt and a stationary guide for said belt, whereby the cutting-ofi' tool is thrown into and out of operative connection with the driving belt by the movement of the carriage.

10. In a milling machine, means to clamp and hold the stock to be milled, a carriage, automatic means to move the same transversely of the length of the stock, a cuttingoff tool rotatably mounted on the carriage, a shaft supported by the carriage and operatively connected with said tool, and driving means for said shaft normally disconnected therefrom, movement of the carriage to put the cutter into its operative position bringing the shaft into driving connection with the driving means, and movement in the opposite direction disconnecting said shaft from the driving means.

11. In a milling machine, a sliding carriage, a shaft sustained therein and pro- -vided with a continuously moving actuator 'comprising a toothed wheel, and a shaft, a substantially universal oint connecting said two shafts, a turret mounted rotatably on said carriage, a plurality of pairs of milling tools carried by said turret and arranged in sets, means to rotate said turret intermittingly to place the first gear of the train of gears for operating each set of milling tools in mesh with said continuously moving actuator whereby each set of milling tools is actuated at the proper times one after the other in a single rotation of the turret.

12. In a milling machine, a chuck to hold stationary the stock to be milled, a rotatable turret, a plurality of pairs of milling tools carried by the turret` gears for rotating the tools of each pair of milling tools in opposite directions, and a continuously rotated gear normally disconnected from the gears for rotating the tools, movement of the turret to bring any pair of milling tools into operative position bringing the gears for said pairs of tools into operative connection with the continuously rotating gear.

In testimony whereof, I have signed my name to this specification, in the presence of two subscribing witnesses.

SANFORD D. LELAND.

IVitnesses:

NELSON IV. HOWARD, BERTHA L. HANNAH. 

